EP0971225A2 - Device for detecting a product in the exhaust flow of a catalyst material of a plurality of catalyst materials - Google Patents

Abstract

Conversion products from a catalyzed gaseous reaction are analyzed by feeding the reactor outlet stream to an adsorbent that is selective for the product to be determined by having at least one property, e.g. visible color change, infrared or ultraviolet absorption, fluorescence, density, temperature, refractive index, pH or conductivity, etc. which changes when in contact with this product. A test apparatus (1) has a thermally conductive, solid cylindrical block (6), of e.g. brass, provided on its upper face with a number of cylindrical recesses (7), arranged in a matrix. Each recess has a bottom outlet bore (8), extending down to a porous plate (21) and providing identical flowrate. The top of the block is covered by a brass lid (10) with inlet connections (17,18). Both the block and the lid have heating/cooling elements (15), inserted in horizontal bores (14), for temperature control. The gaseous test feed is introduced to a distribution chamber (19) via the inlets, simultaneously passes down through the catalyst samples (20), supported on porous frits (16) within the recesses, and down the bores to the plate which contains the absorbent reagent, before leaving the apparatus via a collection chamber and outlet (23). The components of the test apparatus are firmly clamped together, and typically allow operation at -50 degrees to +600 degrees C and 1 mbar to 1000 bar.

Description

The invention relates to a method for the detection of a product in the outflow a catalytic material of a variety of catalytic materials which are exposed to a reaction gas.

The development of new, particularly powerful catalysts is for the Improvement in the yield of many standard processes is necessary. For The production and characterization of catalysts are potentially active carrier and catalyst components in a supposedly suitable manner combined and the multi-component mixtures thus created with one suitable test reaction under certain, mostly due to technical limitations specified conditions tested. During the synthesis of such materials can often be managed with a manageable amount of time, the Testing the catalysts, however, is very time-consuming and labor-intensive Shrill. In general, the material to be tested is in a specially for this designed laboratory test reactor and filled in under specified parameters tested its suitability for the respective implementation of a starting material mixture.

Most are used to characterize catalysts gas chromatographic or spectroscopic methods applied. For the However, these methods are only conditionally tested for many catalysts at the same time suitable. While gas chromatography has the disadvantage, a certain one The spectroscopic methods have the disadvantage that in the case of more complicated reactions, insufficient statements about the selectivities to give the catalysts. Both methods also have the disadvantage, only to work sequentially and complex and costly analytics include.

Nevertheless, progress has been made in the applicability of both methods. Through the computer-controlled amalgamation of several columns for example an increase in the quality of analysis and Speed of analysis in gas chromatography reached (Stockinger, J.H., Callen, R.B., Kaufman, W.E., J.Chromatogr.Sci. 16, 1978, 418).

In connection with a method for the investigation of chemical Reactions in reactors connected in parallel is the application of described spectroscopic methods for characterizing the samples (Windhab, N., Miculka, C., Hoppe, H.-U., DE 196 32 779).

Also published is a method of using catalyst pellets Test infrared thermography (Moates, F.C., Somani, M., Annamalai, J., Richardson, J.T., Luss, D., Willson, R.C., Ind. Eng. Chem. Res. 35, 1996, 4801). However, this method is for reactions with a large amount of heat limited. An additional disadvantage of this method is that e.g. at Partial oxidation the hottest catalyst not the one with the largest Selectivity towards the desired product.

WO 97/32208 describes a catalyst test method in which a Variety of differently composed catalysts in the form of pellets or the like are arranged in a multi-cell holder and with an inflow of a Mixture can be contacted. The measurement is done spectroscopically, thermographically or on the basis of other common measuring methods, the Measurement is always made directly on the catalysts.

DE 196 33 779 A1 describes a method for investigating chemical Reactions in parallel, miniaturized reactors described. The supplied educt is passed past a catalyst, whereby a Reaction mixture is formed, which in turn is in a cuvette hole is directed and eliminated via this. Extends for measurement Infrared beam through one of the cuvette holes, which is like an nxn matrix are arranged.

In view of the prior art, it is now the task of the present Invention, an economically feasible method for the detection of a Product in the downstream of a variety of catalytic materials catalytic materials that are exposed to a reaction gas for To provide the selectivity and activity of the catalytic Materials.

Furthermore, it is an object of the invention to provide the most economical, simple and effective method for testing catalytic materials specify.

Furthermore, the process should be without much time and effort be feasible.

These tasks are solved as well as other tasks not explicitly mentioned, which, however, can easily be derived from the contexts discussed here or are accessible through the measures described in claim 1. Appropriate modifications of the method according to the invention are in the subclaims referenced to claim 1.

The fact that a selective for the product to be determined adsorbent in Downstream of any catalytic material that provides at least one its properties through contact with the product to be determined changes and then detects the change in the property of the adsorbent, the selectivity and activity of the catalytic materials succeed ascertain.

On the one hand, the process is inexpensive and effective, on the other hand, it can be perform the procedure without much time and effort.

The arrangement for analysis can be spatially separated from the catalytic material his. Therefore, the analysis of the products can also be done by methods that not applicable under the reaction conditions of the catalytic conversion because, for example, the adsorbent is not stable at temperatures, in which the catalyzed reaction must take place. If the adsorbent passes through the chosen reaction conditions is not destroyed, but it can also be very close to the catalytic material.

By suitable arrangement of different adsorbents different products of the catalytic reaction are determined simultaneously become. So it is possible in a very elegant way, besides the activity of a catalytic material with regard to a desired product also the Determine concentration of unwanted by-products, so that too the selectivity of the catalytic material can be determined.

Draw preferred embodiments of the method according to the invention is characterized in that the adsorbent is a solid or one on a solid Carrier-applied liquid is.

Preferably changes through contact with the product to be determined an optical property, especially in the infrared, visible or ultraviolet range.

Particularly preferably, the adsorbent comes into contact with the determining product of the catalytic conversion a color change, so that, for example, color formation or discoloration are found can.

It is further preferred that the contact with the determining product changing property of the adsorbent a fluorescence is.

Another property that is determined by the contact with the Product can change is the weight of the adsorbent.

Another preferred modification of the method according to the invention uses the temperature of the adsorbent to determine a product of the catalytic reaction.

Another property of the adsorbent, which is due to the contact with the determining product, the refractive index is one on one solid carrier applied liquid.

Furthermore, the pH of the adsorbent is a property that is characterized by may change contact with the product to be determined, especially if the adsorbent is a liquid applied to a solid support.

A change in the conductivity of the adsorbent is particularly preferred contact with the product to be determined.

Here, the product to be determined can also be obtained from the adsorbent of a solvent, after which a property, such as for example the refractive index, pH and conductivity, so obtained solution is determined.

Draw preferred embodiments of the method according to the invention are characterized in that the product to be determined maleic anhydride and Adsorbent is an N, N-dimethylindoaniline applied to a filter paper in ethanolic solution is, the color of the adsorbent on contact with the maleic anhydride changes from blue to colorless.

In a preferred embodiment of an adsorbent described above become reactive groups that are able to downstream in a Parallel reactor to react selectively with a desired product on a solid support applied.

In a further preferred embodiment, reactive molecules which can react selectively with a desired product in one Solvent dissolved, after which this is applied to a solid support.

Proof of a product should be within the scope of the present invention any identification of a chemical element, a chemical Compound or a functional group to be understood in a catalytic reaction are formed.

This can be, for example, a connection, its formation should be optimized by the catalytic implementation.

But it is also conceivable that a connection is determined that the Formation of the desired product inevitably arises. This includes at other hydrogen, for example, which is released during dehydrogenation.

Substances can also be detected by the method according to the invention whose formation should be avoided, i.e. by-products of one catalytic conversion.

A catalytic material is a substance that releases the activation energy a certain reaction and thereby reduce the Reaction rate increases without increasing the reaction product in the end product appear. Elements and connections are, for example, under fabric and to understand homogeneous and heterogeneous mixtures thereof. Just show binary or ternary mixtures of elements and / or compounds often an unexpectedly high catalytic effect, which can only be achieved through empiricism can be determined.

The process according to the invention enables many catalytic materials, which differ in their composition, under identical Reaction conditions can be examined simultaneously. It is essential to the invention that the outflow of a catalytic material can be assigned to a change in the property of the adsorbent. This may require that the outflows of the respective catalytic materials are kept separate from each other. The A large number of catalytic materials, i.e. at least two, can can be introduced, for example, in parallel reactors.

After contact with a catalytic, the gas mixture is downstream Understood material that can contain at least one reaction product. The Reaction gas is a gas that contains the reactant (s). It can additionally have inert gases, such as nitrogen or noble gases (in particular helium, neon, argon or mixtures of these gases) in order For example, to improve the conduct of the reaction.

The reactant is the starting material or materials understood catalytic implementation. With dehydration, this can for example an alkane such as ethane. With other reactions like for example a hydrogenation or a partial oxidation, are at least two reactants are required, such as hydrogen and an alkyne a hydrogenation, or oxygen and an alkane such as n-butane in one Partial oxidation.

Selectivity is the ability to absorb from a number of offered Compounds in the effluent of the reaction gas are preferred to select.

Adsorbent refers to a substance that is able to remove certain substances enrich gaseous mixtures at its interface or in itself record what may be associated with an increase in volume. The Adsorbent can be a solid or a mixture of solids, such as for example activated carbon, aluminum oxide, silica gel, calls zeolite, or Be liquid that is applied to a solid support, such as. Legs ethanolic solution of N, N-dimethylindoaniline, which is on filter paper is applied. These substances can also be used as a mixture. It it is possible to provide the adsorbent with reactive groups or with substances to selectively change the properties by contact with the to produce the product to be determined.

Properties denote features of the adsorbent, which are characterized by the Change contact with the product to be determined. These include under other optical properties, especially in the infrared, visible or ultraviolet region of the spectrum, that is, color changes due to contact of the product with the adsorbent, such as the formation of Color or a discoloration, the weight of the adsorbent, the temperature, the Fluorescence, the refractive index, the pH or the conductivity.

The occurring through contact with the product to be determined Changes in properties must be determined according to the invention. Depending on This can be done, for example, visually or by measurement. Here it is necessary to change the measurement method of the property adapt. A change in temperature of the adsorbent caused by a specific exothermic reaction based, for example, by a Infrared camera can be determined. The determination can be made in most cases can also be automated.

The following is an embodiment of an arrangement for testing the catalytic activity of a reaction gas exposed solids, under Reference to the drawings explained in more detail.

Figur 1

die Versuchseinheit der Anordnung zum Testen der katalytischen Aktivität von einem Reaktionsgas ausgesetzten Feststoffen in geschnittener Darstellung,

Figur 2

einen Schnitt durch die Versuchseinheit entlang der Linie II-II von Figur 1,

Show it:

Figure 1

the experimental unit of the arrangement for testing the catalytic activity of solids exposed to a reaction gas in a sectional view,

Figure 2

2 shows a section through the experimental unit along the line II-II from FIG. 1,

FIG. 1 shows a section through the test unit 1 of the test arrangement. The Experimental unit 1 has a cylindrical body 6 made of heat-conducting Material, preferably brass, on the top with cylindrical Holes 7 is provided in the form of an n x m matrix with four rows and four columns are arranged (Figure 2). A 4 x 4 matrix is only an example specified, there are also arrangements with a much larger number of Exceptions possible.

At the bottom of each recess 7, a channel 8 is connected to the Bottom of the brass body 6 ends on a porous plate 21. The channels 8 run parallel to each other in the vertical direction. You have a smaller one Diameter than the recesses. This represents similar rivers through everyone Recesses safe because the channels have the respective main flow resistances represent. The individual channels can also be narrowed to in set exactly the same flows for all recesses. You can do this in corresponding throttle devices or the like are provided for the experimental unit his.

On the top of the brass body 6 is a flange 9 for attaching a Lid 10 made of heat-conducting material, preferably brass. Flange 9 and cover 10 have several circumferentially distributed Bores 11 so that the lid is screwed tightly to the brass body can be (Figure 3). To seal the cover 10 against the flange 9, an annular seal 12 is provided, which is in an annular groove 13 of the flange 9 sits.

The brass body 6 and the cover 10 have holes 14 for receiving of heating cartridges 15 of a heating device to the test unit 1 to be able to heat the reaction temperature. The holes 14 can also serve to accommodate cooling elements, so that a reproducible and controlled temperature control can be ensured.

At the bottom of the brass body 6 is a bottom 22 made of heat-conducting Material, preferably brass. This floor 22 can also with the flange 9 are screwed.

The bottom 22 serves to fasten the porous plate 21, which is the can absorb adsorbent according to the invention. The bottom 22 has one Hole 23 through which the reaction gas, which from the channels 8 through the plate 21 flows, can be derived.

The catalysts to be examined are each seated on a plate 16 a porous inert mass (frit) that is transverse to the bottom of each recess whose longitudinal axis is arranged.

To test the catalysts at the same time, the cover 10 is connected to the Flange 9 of the brass body 6 screwed and over in the lid provided holes 17, 18, the reaction gas in the above the Recesses 7 located gas supply chamber 19 passed. The reaction gas flows through the catalysts 20 sitting on the frits 16 and is via the Channels 8 discharged. This is at the end of these channels 8 Adsorbent according to the invention, which, for example, on a plate 21 a porous inert mass (frit) can be applied to the soil of the brass body 6 is inserted. Then the reaction gas is over the bore 23 discharged.

The catalytic conversion of the reaction gas can be carried out, for example, at temperatures in the range from -50 ° C. to 600 ° C. and at pressures in the range from 10 ^-3 to 1000 bar.

It is possible to automate the method according to the invention. For this can both feeding the reactors with catalysts, for example by Laboratory robot or a specially designed loading unit, as also determining the change in properties of the adsorbent, for example through digital photography and subsequent computer-aided evaluation, done automatically.

The method according to the invention can be used, for example, for the detection of Partial oxidation products such as of n-butane or benzene, or at Hydrogenation reactions, e.g. of alkynes. Also at Dehydrogenation reactions, e.g. of alkanes, Hydroformulation reactions of alkenes, amination or Acylation reactions using this method is advantageous. Also the Products from oligomerization and polymerization reactions can be used with the described method can be demonstrated.

In a special application, maleic anhydride is made from the effluent a partial oxidation of n-butane in parallel reactors. For this purpose, a filter paper with an ethanolic solution of N, N-dimethylindoaniline soaked and with the effluent of the catalytic test in Brought in contact. In the presence of maleic anhydride, the Color of the filter paper from blue to colorless, indicating a Diels-Alder reaction of maleic anhydride with the N, N-dimethylindoaniline under Loss of the conjugated pi-electron system.

Claims (11)

Method for the detection of a product in the outflow of a catalytic material from a plurality of catalytic materials which are simultaneously exposed to a common inflow of a reaction gas, characterized in that the outflow of each catalytic material is fed individually to a common adsorbent which is selective for the product to be determined and changes at least one of its properties through contact with the product to be determined and then the change in the property of the adsorbent is determined. A method according to claim 1, characterized in that the adsorbent is a solid or a liquid, the liquid adsorbent being applied to a solid carrier. Method according to Claims 1 and 2, characterized in that the property of the adsorbent which changes as a result of contact with the product to be determined is an optical property, in particular in the infrared, visible or ultraviolet range. A method according to claim 3, characterized in that the optical property is a change in color, in particular the formation of color or a discoloration. Method according to Claim 1 or 2, characterized in that the property of the adsorbent which changes as a result of contact with the product to be determined is fluorescence. Method according to Claim 1 or 2, characterized in that the property of the adsorbent which changes as a result of contact with the product to be determined is the weight. Method according to Claim 1 or 2, characterized in that the property of the adsorbent which changes as a result of contact with the product to be determined is the temperature. Method according to Claim 2, characterized in that the property of the liquid adsorbent which changes as a result of contact with the product to be determined is the refractive index. Method according to Claim 2, characterized in that the property of the liquid adsorbent which changes as a result of contact with the product to be determined is the pH. Method according to Claim 1 or 2, characterized in that the property of the adsorbent which changes as a result of contact with the product to be determined is the conductivity. Method according to Claims 1 to 4, characterized in that the product to be determined is maleic anhydride and the adsorbent is N, N-dimethylindoaniline, which is applied to a filter paper in ethanolic solution, the color of the adsorbent changing from blue to blue when it comes into contact with the maleic anhydride colorless changes.

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